mod_posix: Move everything to util.startup
This allows greater control over the order of events.
Notably, the internal ordering between daemonization, initialization of
libunbound and setup of signal handling is sensitive.
libunbound starts a separate thread for processing DNS requests.
If this thread is started before signal handling has been set up, it
will not inherit the signal handlers and instead behave as it would have
before signal handlers were set up, i.e. cause the whole process to
immediately exit.
libunbound is usually initialized on the first DNS request, usually
triggered by an outgoing s2s connection attempt.
If daemonization happens before signals have been set up, signals may
not be processed at all.
-- Prosody IM
-- Copyright (C) 2016-2018 Kim Alvefur
--
-- This project is MIT/X11 licensed. Please see the
-- COPYING file in the source package for more information.
--
local t_insert = table.insert;
local t_concat = table.concat;
local setmetatable = setmetatable;
local pcall = pcall;
local type = type;
local next = next;
local pairs = pairs;
local ipairs = ipairs;
local traceback = debug.traceback;
local logger = require "prosody.util.logger";
local log = logger.init("server_epoll");
local socket = require "socket";
local realtime = require "prosody.util.time".now;
local monotonic = require "prosody.util.time".monotonic;
local indexedbheap = require "prosody.util.indexedbheap";
local createtable = require "prosody.util.table".create;
local inet = require "prosody.util.net";
local inet_pton = inet.pton;
local _SOCKETINVALID = socket._SOCKETINVALID or -1;
local new_id = require "prosody.util.id".short;
local xpcall = require "prosody.util.xpcall".xpcall;
local sslconfig = require "prosody.util.sslconfig";
local tls_impl = require "prosody.net.tls_luasec";
local have_signal, signal = pcall(require, "prosody.util.signal");
local poller = require "prosody.util.poll"
local EEXIST = poller.EEXIST;
local ENOENT = poller.ENOENT;
local poll = assert(poller.new());
local _ENV = nil;
-- luacheck: std none
local default_config = { __index = {
-- If a connection is silent for this long, close it unless onreadtimeout says not to
read_timeout = 14 * 60;
-- How long to wait for a socket to become writable after queuing data to send
send_timeout = 180;
-- How long to wait for a socket to become writable after creation
connect_timeout = 20;
-- Some number possibly influencing how many pending connections can be accepted
tcp_backlog = 128;
-- If accepting a new incoming connection fails, wait this long before trying again
accept_retry_interval = 10;
-- If there is still more data to read from LuaSockets buffer, wait this long and read again
read_retry_delay = 1e-06;
-- Size of chunks to read from sockets
read_size = 8192;
-- Timeout used during between steps in TLS handshakes
ssl_handshake_timeout = 60;
-- Maximum and minimum amount of time to sleep waiting for events (adjusted for pending timers)
max_wait = 86400;
min_wait = 0.001;
-- Enable extra noisy debug logging
verbose = false;
-- EXPERIMENTAL
-- Whether to kill connections in case of callback errors.
fatal_errors = false;
-- Or disable protection (like server_select) for potential performance gains
protect_listeners = true;
-- Attempt writes instantly
opportunistic_writes = false;
-- TCP Keepalives
tcp_keepalive = false; -- boolean | number
-- Whether to let the Nagle algorithm stay enabled
nagle = true;
-- Reuse write buffer tables
keep_buffers = true;
--- How long to wait after getting the shutdown signal before forcefully tearing down every socket
shutdown_deadline = 5;
-- TCP Fast Open
tcp_fastopen = false;
-- Defer accept until incoming data is available
tcp_defer_accept = false;
}};
local cfg = default_config.__index;
local fds = createtable(10, 0); -- FD -> conn
-- Timer and scheduling --
local timers = indexedbheap.create();
local function noop() end
-- Keep track of recently closed timers to avoid re-adding them
local closedtimers = {};
local function closetimer(id)
if timers:remove(id) then
closedtimers[id] = true;
end
end
local function reschedule(id, time)
time = monotonic() + time;
timers:reprioritize(id, time);
end
-- Add relative timer
local function addtimer(timeout, f, param)
local time = monotonic() + timeout;
if param ~= nil then
local timer_callback = f
function f(current_time, timer_id)
local t = timer_callback(current_time, timer_id, param)
return t;
end
end
local id = timers:insert(f, time);
return id;
end
-- Run callbacks of expired timers
-- Return time until next timeout
local function runtimers(next_delay, min_wait)
-- Any timers at all?
local elapsed = monotonic();
local now = realtime();
local peek = timers:peek();
local readd;
while peek do
if peek > elapsed then
break;
end
local _, timer, id = timers:pop();
local ok, ret = xpcall(timer, traceback, now, id);
if ok and type(ret) == "number" and not closedtimers[id] then
local next_time = elapsed+ret;
-- Delay insertion of timers to be re-added
-- so they don't get called again this tick
if readd then
readd[id] = { timer, next_time };
else
readd = { [id] = { timer, next_time } };
end
elseif not ok then
log("error", "Error in timer: %s", ret);
end
peek = timers:peek();
end
if readd then
for id, timer in pairs(readd) do
timers:insert(timer[1], timer[2], id);
end
peek = timers:peek();
end
if next(closedtimers) ~= nil then
closedtimers = {};
end
if peek == nil then
return next_delay;
else
next_delay = peek - elapsed;
end
if next_delay < min_wait then
return min_wait;
end
return next_delay;
end
-- Socket handler interface
local interface = {};
local interface_mt = { __index = interface };
function interface_mt:__tostring()
if self.sockname and self.peername then
return ("FD %d (%s, %d, %s, %d)"):format(self:getfd(), self.peername, self.peerport, self.sockname, self.sockport);
elseif self.sockname or self.peername then
return ("FD %d (%s, %d)"):format(self:getfd(), self.sockname or self.peername, self.sockport or self.peerport);
end
return ("FD %d"):format(self:getfd());
end
interface.log = log;
function interface:debug(msg, ...)
self.log("debug", msg, ...);
end
interface.noise = interface.debug;
function interface:noise(msg, ...)
if cfg.verbose then
return self:debug(msg, ...);
end
end
function interface:error(msg, ...)
self.log("error", msg, ...);
end
-- Replace the listener and tell the old one
function interface:setlistener(listeners, data)
self:on("detach");
self.listeners = listeners;
self:on("attach", data);
end
-- Call a listener callback
function interface:on(what, ...)
if not self.listeners then
self:error("Interface is missing listener callbacks");
return;
end
local listener = self.listeners["on"..what];
if not listener then
self:noise("Missing listener 'on%s'", what); -- uncomment for development and debugging
return;
end
if not cfg.protect_listeners then
return listener(self, ...);
end
local onerror = self.listeners.onerror or traceback;
local ok, err = xpcall(listener, onerror, self, ...);
if not ok then
if cfg.fatal_errors then
self:error("Closing due to error calling on%s: %s", what, err);
self:destroy();
else
self:error("Error calling on%s: %s", what, err);
end
return nil, err;
end
return err;
end
-- Allow this one to be overridden
function interface:onincoming(...)
return self:on("incoming", ...);
end
-- Return the file descriptor number
function interface:getfd()
if self.conn then
return self.conn:getfd();
end
return _SOCKETINVALID;
end
function interface:server()
return self._server or self;
end
-- Get IP address
function interface:ip()
return self.peername or self.sockname;
end
-- Get a port number, doesn't matter which
function interface:port()
return self.peerport or self.sockport;
end
-- Client-side port (usually a random high port)
function interface:clientport()
if self._server then
return self.peerport;
else
return self.sockport;
end
end
-- Get port on the server
function interface:serverport()
if self._server then
return self.sockport;
else
return self.peerport;
end
end
-- Return underlying socket
function interface:socket()
return self.conn;
end
function interface:set_mode(new_mode)
self.read_size = new_mode;
end
function interface:setoption(k, v)
-- LuaSec doesn't expose setoption :(
local ok, ret, err = pcall(self.conn.setoption, self.conn, k, v);
if not ok then
self:noise("Setting option %q = %q failed: %s", k, v, ret);
return ok, ret;
elseif not ret then
self:noise("Setting option %q = %q failed: %s", k, v, err);
return ret, err;
end
return ret;
end
-- Timeout for detecting dead or idle sockets
function interface:setreadtimeout(t)
if t == false then
if self._readtimeout then
closetimer(self._readtimeout);
self._readtimeout = nil;
end
return
end
t = t or cfg.read_timeout;
if self._readtimeout then
reschedule(self._readtimeout, t);
else
self._readtimeout = addtimer(t, function ()
if self:on("readtimeout") then
self:noise("Read timeout handled");
return cfg.read_timeout;
else
self:debug("Read timeout not handled, disconnecting");
self:on("disconnect", "read timeout");
self:destroy();
end
end);
end
end
-- Timeout for detecting dead sockets
function interface:setwritetimeout(t)
if t == false then
if self._writetimeout then
closetimer(self._writetimeout);
self._writetimeout = nil;
end
return
end
t = t or cfg.send_timeout;
if self._writetimeout then
reschedule(self._writetimeout, t);
else
self._writetimeout = addtimer(t, function ()
self:noise("Write timeout");
self:on("disconnect", self._connected and "write timeout" or "connection timeout");
self:destroy();
end);
end
end
function interface:add(r, w)
local fd = self:getfd();
if fd < 0 then
return nil, "invalid fd";
end
if r == nil then r = self._wantread; end
if w == nil then w = self._wantwrite; end
local ok, err, errno = poll:add(fd, r, w);
if not ok then
if errno == EEXIST then
self:debug("FD already registered in poller! (EEXIST)");
return self:set(r, w); -- So try to change its flags
end
self:debug("Could not register in poller: %s(%d)", err, errno);
return ok, err;
end
self._wantread, self._wantwrite = r, w;
fds[fd] = self;
self:noise("Registered in poller");
return true;
end
function interface:set(r, w)
local fd = self:getfd();
if fd < 0 then
return nil, "invalid fd";
end
if r == nil then r = self._wantread; end
if w == nil then w = self._wantwrite; end
if r == self._wantread and w == self._wantwrite then
return true
end
local ok, err, errno = poll:set(fd, r, w);
if not ok then
self:debug("Could not update poller state: %s(%d)", err, errno);
return ok, err;
end
self._wantread, self._wantwrite = r, w;
return true;
end
function interface:del()
local fd = self:getfd();
if fd < 0 then
return nil, "invalid fd";
end
if fds[fd] ~= self then
return nil, "unregistered fd";
end
local ok, err, errno = poll:del(fd);
if not ok and errno ~= ENOENT then
self:debug("Could not unregister: %s(%d)", err, errno);
return ok, err;
end
self._wantread, self._wantwrite = nil, nil;
fds[fd] = nil;
self:noise("Unregistered from poller");
return true;
end
function interface:setflags(r, w)
if not(self._wantread or self._wantwrite) then
if not(r or w) then
return true; -- no change
end
return self:add(r, w);
end
if not(r or w) then
return self:del();
end
return self:set(r, w);
end
-- Called when socket is readable
function interface:onreadable()
local data, err, partial = self.conn:receive(self.read_size or cfg.read_size);
if data then
self:onconnect();
self:onincoming(data);
else
if err == "wantread" then
self:set(true, nil);
err = "timeout";
elseif err == "wantwrite" then
self:set(nil, true);
self:setwritetimeout();
err = "timeout";
elseif err == "timeout" and not self._connected then
err = "connection timeout";
end
if partial and partial ~= "" then
self:onconnect();
self:onincoming(partial, err);
end
if err == "closed" and self._connected then
self:debug("Connection closed by remote");
self:close(err);
return;
elseif err ~= "timeout" then
self:debug("Read error, closing (%s)", err);
self:on("disconnect", err);
self:destroy();
return;
end
end
if not self.conn then return; end
if self._limit and (data or partial) then
local cost = self._limit * #(data or partial);
if cost > cfg.min_wait then
self:setreadtimeout(false);
self:pausefor(cost);
return;
end
end
if not self._wantread then return end
if self.conn:dirty() then
self:setreadtimeout(false);
self:pausefor(cfg.read_retry_delay);
else
self:setreadtimeout();
end
end
-- Called when socket is writable
function interface:onwritable()
self._writing = true; -- prevent reentrant writes etc
self:onconnect();
if not self.conn then return nil, "no-conn"; end -- could have been closed in onconnect
self:on("predrain");
local buffer = self.writebuffer;
local data = buffer or "";
if type(buffer) == "table" then
if buffer[3] then
data = t_concat(data);
elseif buffer[2] then
data = buffer[1] .. buffer[2];
else
data = buffer[1] or "";
end
end
local ok, err, partial = self.conn:send(data);
self._writable = ok;
if ok then
self:set(nil, false);
if cfg.keep_buffers and type(buffer) == "table" then
for i = #buffer, 1, -1 do
buffer[i] = nil;
end
else
self.writebuffer = nil;
end
self._writing = nil;
self:setwritetimeout(false);
self:ondrain(); -- Be aware of writes in ondrain
return ok;
elseif partial then
self:debug("Sent %d out of %d buffered bytes", partial, #data);
if cfg.keep_buffers and type(buffer) == "table" then
buffer[1] = data:sub(partial+1);
for i = #buffer, 2, -1 do
buffer[i] = nil;
end
else
self.writebuffer = data:sub(partial+1);
end
self:set(nil, true);
self:setwritetimeout();
end
self._writing = nil;
if err == "wantwrite" or err == "timeout" then
self:set(nil, true);
self:setwritetimeout();
elseif err == "wantread" then
self:set(true, nil);
self:setreadtimeout();
elseif err ~= "timeout" then
self:on("disconnect", err);
self:destroy();
return ok, err;
end
return true, err;
end
-- The write buffer has been successfully emptied
function interface:ondrain()
return self:on("drain");
end
-- Add data to write buffer and set flag for wanting to write
function interface:write(data)
local buffer = self.writebuffer;
if type(buffer) == "table" then
t_insert(buffer, data);
elseif type(buffer) == "string" then
self:noise("Allocating buffer!")
self.writebuffer = { buffer, data };
elseif buffer == nil then
self.writebuffer = data;
end
if not self._write_lock and not self._writing then
if self._writable and cfg.opportunistic_writes and not self._opportunistic_write then
self._opportunistic_write = true;
local ret, err = self:onwritable();
self._opportunistic_write = nil;
return ret, err;
end
self:setwritetimeout();
self:set(nil, true);
end
return #data;
end
interface.send = interface.write;
-- Close, possibly after writing is done
function interface:close()
if self._connected and self.writebuffer and (self.writebuffer[1] or type(self.writebuffer) == "string") then
self._connected = false;
self:set(false, true); -- Flush final buffer contents
self:setreadtimeout(false);
self:setwritetimeout();
self.write, self.send = noop, noop; -- No more writing
self:debug("Close after writing remaining buffered data");
self.ondrain = interface.close;
else
self:debug("Closing now");
self.write, self.send = noop, noop;
self.close = noop;
self:on("disconnect");
self:destroy();
end
end
function interface:destroy()
self:del();
self:setwritetimeout(false);
self:setreadtimeout(false);
self.onreadable = noop;
self.onwritable = noop;
self.destroy = noop;
self.close = noop;
self.on = noop;
self.conn:close();
self.conn = nil;
end
function interface:ssl()
return self._tls;
end
function interface:set_sslctx(sslctx)
self._sslctx = sslctx;
end
function interface:sslctx()
return self.tls_ctx
end
function interface:ssl_info()
local sock = self.conn;
if not sock then return nil, "not-connected" end
if not sock.info then return nil, "not-implemented"; end
return sock:info();
end
function interface:ssl_peercertificate()
local sock = self.conn;
if not sock then return nil, "not-connected" end
if not sock.getpeercertificate then return nil, "not-implemented"; end
return sock:getpeercertificate();
end
function interface:ssl_peerverification()
local sock = self.conn;
if not sock then return nil, "not-connected" end
if not sock.getpeerverification then return nil, { { "Chain verification not supported" } }; end
return sock:getpeerverification();
end
function interface:ssl_peerfinished()
local sock = self.conn;
if not sock then return nil, "not-connected" end
if not sock.getpeerfinished then return nil, "not-implemented"; end
return sock:getpeerfinished();
end
function interface:ssl_exportkeyingmaterial(label, len, context)
local sock = self.conn;
if not sock then return nil, "not-connected" end
if sock.exportkeyingmaterial then
return sock:exportkeyingmaterial(label, len, context);
end
end
function interface:starttls(tls_ctx)
if tls_ctx then self.tls_ctx = tls_ctx; end
self.starttls = false;
if self.writebuffer and (self.writebuffer[1] or type(self.writebuffer) == "string") then
self:debug("Start TLS after write");
self.ondrain = interface.starttls;
self:set(nil, true); -- make sure wantwrite is set
else
if self.ondrain == interface.starttls then
self.ondrain = nil;
end
self.onwritable = interface.inittls;
self.onreadable = interface.inittls;
self:set(true, true);
self:setreadtimeout(false);
self:setwritetimeout(cfg.ssl_handshake_timeout);
self:debug("Prepared to start TLS");
end
end
function interface:inittls(tls_ctx, now)
if self._tls then return end
if tls_ctx then self.tls_ctx = tls_ctx; end
self._tls = true;
self.starttls = false;
self:debug("Starting TLS now");
self:updatenames(); -- Can't getpeer/sockname after wrap()
local conn, err = self.tls_ctx:wrap(self.conn);
if not conn then
self:on("disconnect", err);
self:destroy();
return conn, err;
end
conn:settimeout(0);
self.conn = conn;
if conn.sni then
if self.servername then
conn:sni(self.servername);
elseif next(self.tls_ctx._sni_contexts) ~= nil then
conn:sni(self.tls_ctx._sni_contexts, true);
end
end
if self.extra and self.extra.tlsa and conn.settlsa then
-- TODO Error handling
if not conn:setdane(self.servername or self.extra.dane_hostname) then
self:debug("Could not enable DANE on connection");
else
self:debug("Enabling DANE with %d TLSA records", #self.extra.tlsa);
self:noise("DANE hostname is %q", self.servername or self.extra.dane_hostname);
for _, tlsa in ipairs(self.extra.tlsa) do
self:noise("TLSA: %q", tlsa);
conn:settlsa(tlsa.use, tlsa.select, tlsa.match, tlsa.data);
end
end
end
self:on("starttls");
self.ondrain = nil;
self.onwritable = interface.tlshandshake;
self.onreadable = interface.tlshandshake;
if now then
return self:tlshandshake()
end
self:setreadtimeout(false);
self:setwritetimeout(cfg.ssl_handshake_timeout);
self:set(true, true);
end
function interface:tlshandshake()
self:setreadtimeout(false);
self:noise("Continuing TLS handshake");
local ok, err = self.conn:dohandshake();
if ok then
local info = self.conn.info and self.conn:info();
if type(info) == "table" then
self:debug("TLS handshake complete (%s with %s)", info.protocol, info.cipher);
else
self:debug("TLS handshake complete");
end
self:setwritetimeout(false);
self.onwritable = nil;
self.onreadable = nil;
self:on("status", "ssl-handshake-complete");
self:set(true, true);
self:onconnect();
self:onreadable();
elseif err == "wantread" then
self:noise("TLS handshake to wait until readable");
self:set(true, false);
self:setwritetimeout(cfg.ssl_handshake_timeout);
elseif err == "wantwrite" then
self:noise("TLS handshake to wait until writable");
self:set(false, true);
self:setwritetimeout(cfg.ssl_handshake_timeout);
else
self:debug("TLS handshake error: %s", err);
self:on("disconnect", err);
self:destroy();
end
end
local function wrapsocket(client, server, read_size, listeners, tls_ctx, extra) -- luasocket object -> interface object
client:settimeout(0);
local conn_id = ("conn%s"):format(new_id());
local conn = setmetatable({
conn = client;
_server = server;
created = realtime();
listeners = listeners;
read_size = read_size or (server and server.read_size);
writebuffer = nil;
tls_ctx = tls_ctx or (server and server.tls_ctx);
tls_direct = server and server.tls_direct;
id = conn_id;
log = logger.init(conn_id);
extra = extra;
}, interface_mt);
if extra then
if extra.servername then
conn.servername = extra.servername;
end
end
return conn;
end
function interface:updatenames()
local conn = self.conn;
local ok, peername, peerport = pcall(conn.getpeername, conn);
if ok and peername then
self.peername, self.peerport = peername, peerport or 0;
end
local ok, sockname, sockport = pcall(conn.getsockname, conn);
if ok and sockname then
self.sockname, self.sockport = sockname, sockport or 0;
end
end
-- A server interface has new incoming connections waiting
-- This replaces the onreadable callback
function interface:onacceptable()
local conn, err = self.conn:accept();
if not conn then
self:debug("Error accepting new client: %s, server will be paused for %ds", err, cfg.accept_retry_interval);
self:pausefor(cfg.accept_retry_interval);
return;
end
local client = wrapsocket(conn, self, nil, self.listeners);
client:updatenames();
client:debug("New connection %s on server %s", client, self);
client:defaultoptions();
client._writable = cfg.opportunistic_writes;
if self.tls_direct then
client:add(true, true);
client:inittls(self.tls_ctx, true);
else
client:add(true, false);
client:onconnect();
client:onreadable();
end
end
-- Initialization for outgoing connections
function interface:init()
self:setwritetimeout(cfg.connect_timeout);
self:defaultoptions();
return self:add(true, true);
end
function interface:defaultoptions()
if cfg.nagle == false then
self:setoption("tcp-nodelay", true);
end
if cfg.tcp_keepalive then
self:setoption("keepalive", true);
if type(cfg.tcp_keepalive) == "number" then
self:setoption("tcp-keepidle", cfg.tcp_keepalive);
end
end
end
function interface:pause()
self:noise("Pause reading");
self:setreadtimeout(false);
return self:set(false);
end
function interface:resume()
self:noise("Resume reading");
self:setreadtimeout();
return self:set(true);
end
-- Pause connection for some time
function interface:pausefor(t)
self:noise("Pause for %fs", t);
if self._pausefor then
closetimer(self._pausefor);
self._pausefor = nil;
end
if t == false then return; end
self:set(false);
self._pausefor = addtimer(t, function ()
self._pausefor = nil;
self:set(true);
self:noise("Resuming after pause");
if self.conn and self.conn:dirty() then
self:noise("Have buffered incoming data to process");
self:onreadable();
end
end);
end
function interface:setlimit(Bps)
if Bps > 0 then
self._limit = 1/Bps;
else
self._limit = nil;
end
end
function interface:pause_writes()
if self._write_lock then
return
end
self:noise("Pause writes");
self._write_lock = true;
self:setwritetimeout(false);
self:set(nil, false);
end
function interface:resume_writes()
if not self._write_lock then
return
end
self:noise("Resume writes");
self._write_lock = nil;
if self.writebuffer and (self.writebuffer[1] or type(self.writebuffer) == "string") then
self:setwritetimeout();
self:set(nil, true);
end
end
-- Connected!
function interface:onconnect()
self._connected = true;
self:updatenames();
self:debug("Connected (%s)", self);
self.onconnect = noop;
self:on("connect");
end
local function wrapserver(conn, addr, port, listeners, config)
local server = setmetatable({
conn = conn;
created = realtime();
listeners = listeners;
read_size = config and config.read_size;
onreadable = interface.onacceptable;
tls_ctx = config and config.tls_ctx;
tls_direct = config and config.tls_direct;
hosts = config and config.sni_hosts;
sockname = addr;
sockport = port;
log = logger.init(("serv%s"):format(new_id()));
}, interface_mt);
server:debug("Server %s created", server);
if cfg.tcp_fastopen then
server:setoption("tcp-fastopen", cfg.tcp_fastopen);
end
if type(cfg.tcp_defer_accept) == "number" then
server:setoption("tcp-defer-accept", cfg.tcp_defer_accept);
end
server:add(true, false);
return server;
end
local function listen(addr, port, listeners, config)
local conn, err = socket.bind(addr, port, cfg.tcp_backlog);
if not conn then return conn, err; end
conn:settimeout(0);
return wrapserver(conn, addr, port, listeners, config);
end
-- COMPAT
local function addserver(addr, port, listeners, read_size, tls_ctx)
return listen(addr, port, listeners, {
read_size = read_size;
tls_ctx = tls_ctx;
tls_direct = tls_ctx and true or false;
});
end
-- COMPAT
local function wrapclient(conn, addr, port, listeners, read_size, tls_ctx, extra)
local client = wrapsocket(conn, nil, read_size, listeners, tls_ctx, extra);
client:updatenames();
if not client.peername then
client.peername, client.peerport = addr, port;
end
local ok, err = client:init();
if not ok then return ok, err; end
if tls_ctx then
client:starttls(tls_ctx);
end
return client;
end
-- New outgoing TCP connection
local function addclient(addr, port, listeners, read_size, tls_ctx, typ, extra)
local create;
if not typ then
local n = inet_pton(addr);
if not n then return nil, "invalid-ip"; end
if #n == 16 then
typ = "tcp6";
else
typ = "tcp4";
end
end
if typ then
create = socket[typ];
end
if type(create) ~= "function" then
return nil, "invalid socket type";
end
local conn, err = create();
if not conn then return conn, err; end
local ok, err = conn:settimeout(0);
if not ok then return ok, err; end
local client = wrapsocket(conn, nil, read_size, listeners, tls_ctx, extra)
if cfg.tcp_fastopen then
client:setoption("tcp-fastopen-connect", 1);
end
local ok, err = conn:setpeername(addr, port);
if not ok and err ~= "timeout" then return ok, err; end
client:updatenames();
local ok, err = client:init();
if not client.peername then
-- otherwise not set until connected
client.peername, client.peerport = addr, port;
end
if not ok then return ok, err; end
client:debug("Client %s created", client);
if tls_ctx then
client:starttls(tls_ctx);
end
return client, conn;
end
local function watchfd(fd, onreadable, onwritable)
local conn = setmetatable({
conn = fd;
onreadable = onreadable;
onwritable = onwritable;
close = function (self)
self:del();
end
}, interface_mt);
if type(fd) == "number" then
conn.getfd = function ()
return fd;
end;
-- Otherwise it'll need to be something LuaSocket-compatible
end
conn.id = new_id();
conn.log = logger.init(("fdwatch%s"):format(conn.id));
conn:add(onreadable, onwritable);
return conn;
end;
-- Dump all data from one connection into another
local function link(from, to, read_size)
from:debug("Linking to %s", to.id);
function from:onincoming(data)
self:pause();
to:write(data);
end
function to:ondrain() -- luacheck: ignore 212/self
from:resume();
end
from:set_mode(read_size);
from:set(true, nil);
to:set(nil, true);
end
-- COMPAT
-- net.adns calls this but then replaces :send so this can be a noop
function interface:set_send(new_send) -- luacheck: ignore 212
end
-- Close all connections and servers
local function closeall()
for fd, conn in pairs(fds) do -- luacheck: ignore 213/fd
conn:close();
end
end
local quitting = nil;
-- Signal main loop about shutdown via above upvalue
local function setquitting(quit)
if quit then
quitting = "quitting";
closeall();
addtimer(1, function ()
if quitting then
closeall();
return 1;
end
end);
if cfg.shutdown_deadline then
addtimer(cfg.shutdown_deadline, function ()
if quitting then
for fd, conn in pairs(fds) do -- luacheck: ignore 213/fd
conn:destroy();
end
end
end);
end
else
quitting = nil;
end
end
local function loop_once()
runtimers(); -- Ignore return value because we only do this once
local fd, r, w = poll:wait(0);
if fd then
local conn = fds[fd];
if conn then
if r then
conn:onreadable();
end
if w then
conn:onwritable();
end
else
log("debug", "Removing unknown fd %d", fd);
poll:del(fd);
end
else
return fd, r;
end
end
-- Main loop
local function loop(once)
if once then
return loop_once();
end
local t = 0;
while not quitting do
local fd, r, w = poll:wait(t);
if fd then
t = 0;
local conn = fds[fd];
if conn then
if r then
conn:onreadable();
end
if w then
conn:onwritable();
end
else
log("debug", "Removing unknown fd %d", fd);
poll:del(fd);
end
elseif r == "timeout" then
t = runtimers(cfg.max_wait, cfg.min_wait);
elseif r ~= "signal" then
log("debug", "epoll_wait error: %s[%d]", r, w);
end
end
return quitting;
end
local hook_signal;
if have_signal and signal.signalfd then
local function dispatch(self)
return self:on("signal", self.conn:read());
end
function hook_signal(signum, cb)
local sigfd = signal.signalfd(signum);
if not sigfd then
log("error", "Could not hook signal %d", signum);
return nil, "failed";
end
local watch = watchfd(sigfd, dispatch);
watch.listeners = { onsignal = cb };
watch.close = nil; -- revert to default
watch:noise("Signal handler %d ready", signum);
return watch;
end
end
return {
get_backend = function () return "epoll"; end;
addserver = addserver;
addclient = addclient;
add_task = addtimer;
timer = {
-- API-compatible with util.timer
add_task = addtimer;
stop = closetimer;
reschedule = reschedule;
to_absolute_time = function (t)
return t-monotonic()+realtime();
end;
};
listen = listen;
loop = loop;
closeall = closeall;
setquitting = setquitting;
wrapclient = wrapclient;
wrapserver = wrapserver;
watchfd = watchfd;
link = link;
set_config = function (newconfig)
cfg = setmetatable(newconfig, default_config);
end;
hook_signal = hook_signal;
tls_builder = function(basedir)
return sslconfig._new(tls_impl.new_context, basedir)
end,
-- libevent emulation
event = { EV_READ = "r", EV_WRITE = "w", EV_READWRITE = "rw", EV_LEAVE = -1 };
addevent = function (fd, mode, callback)
log("warn", "Using deprecated libevent emulation, please update code to use watchfd API instead");
local function onevent(self)
local ret = self:callback();
if ret == -1 then
self:set(false, false);
elseif ret then
self:set(mode == "r" or mode == "rw", mode == "w" or mode == "rw");
end
end
local conn = setmetatable({
getfd = function () return fd; end;
callback = callback;
onreadable = onevent;
onwritable = onevent;
close = function (self)
self:del();
fds[fd] = nil;
end;
}, interface_mt);
conn.id = conn:getfd();
conn.log = logger.init(("fdwatch%d"):format(conn.id));
local ok, err = conn:add(mode == "r" or mode == "rw", mode == "w" or mode == "rw");
if not ok then return ok, err; end
return conn;
end;
};